Hemolymph of Anopheles stephensi from noninfected and Plasmodium berghei-infected mosquitoes. 3. Carbohydrates.

Determinations were made of carbohydrates in hemolymph collected from adult female mosquitoes (Anopheles stephensi). First the hemolymph was fractionated by extraction and precipitation procedures, after which qualitative and quantitative determinations of carbohydrates were made by thin layer chromatography. The most abundant sugars found in the hemolymph were glucose and trehalose, though maltose, glucuronic acid, and inositol could be found after the mosquitoes took blood meals. After the mosquitoes ingested a noninfected blood meal, their hemolymph sugar levels rose almost 4-fold. There was less of an increase following a blood meal infected with the rodent malaria parasite, Plasmodium berghei. Depletion of sugars in the hemolymph of infected mosquitoes may result from direct utilization of sugar by the malaria parasite developing within the mosquito.     

The role of hemolymph proline as a nitrogen sink during blood meal digestion by the mosquito Aedes aegypti

Mosquitoes utilize the amino acids derived from blood meal protein to produce egg proteins. But the amino acids can also be used to produce egg lipid or can be oxidized for energy production. These latter two processes result in the release of nitrogen as toxic ammonia. Therefore, amino acids must be processed in such a way that amino acid nitrogen can be incorporated into non-toxic waste products. Proline is the predominant amino acid in the hemolymph of the adult female mosquito Aedes aegypti. After feeding on albumin meal, hemolymph proline levels increased five-fold over unfed levels, reached maximal levels in the first hours after feeding and remained high through oviposition. Hemolymph proline levels increased as the concentration of protein in the meal increased. When starved of sugar for 24 h prior to feeding on an albumin meal, hemolymph proline levels increased four-fold over the proline levels of non-starved mosquitoes. Proline levels after feeding on a protein deficient in essential amino acids, pike parvalbumin, increased to twice the levels of albumin fed mosquitoes. Based on these observations, we propose that mosquitoes utilize proline as a temporary nitrogen sink to store ammonia arising from deamination of blood meal amino acid.     

The ability of Aedes aegypti mosquitoes to survive and transmit infective larvae of Brugia pahangi over successive blood meals

The mortality of Aedes aegypti mosquitoes increased; immediately following a blood meal containing microfilariae of Brugia pahangi, when infective larvae began to migrate out of the flight muscles and when infective larvae were lost from the mosquitoes during a blood meal. When infective mosquitoes took a second blood meal 86.2% of the infective larvae escaped from their bodies. However, only 50.3% escaped when mosquitoes fed through a thin layer of cotton. Infective larvae in the abdomen of the mosquitoes stood the least chance of escaping from the insects. When infective mosquitoes were offered a third blood meal four days later, the proportion of infective larvae in the head and labium had risen from 56.6% in the control group to 66.0% and 69.4% in the two test groups. At this third feed 54.7% and 75.7% of the infective larvae were lost from mosquitoes with a low and medium pre-feeding worm burden respectively. This suggests that the escape of infective larvae from mosquitoes with only a few worms is less efficient than from mosquitoes with a medium worm burden.     

Juvenile hormone connects larval nutrition with target of rapamycin signaling in the mosquito Aedes aegypti

Anautogenous mosquitoes require blood meals to promote egg development. If adequate nutrients are not obtained during larval development, the resulting "small" sized adult mosquitoes require multiple blood meals for egg development; markedly increasing host-vector contacts and the likelihood of disease transmission. Nutrient-sensitive target of rapamycin (TOR) signaling is a key signaling pathway that links elevated hemolymph amino acid levels derived from the blood meal to the expression of yolk protein precursors in the fat body. Here we report that the blood-meal-induced activation of the TOR-signaling pathway and subsequent egg maturation depends on the accumulation of adequate nutritional reserves during larval development. We have established well-nourished, "standard" mosquitoes and malnourished, "small" mosquitoes as models to address this nutrient sensitive pathway. This regulatory mechanism involves juvenile hormone (JH), which acts as a mediator of fat body competence, permitting the response to amino acids derived from the blood meal. We demonstrate that treatment with JH results in recovery of the TOR molecular machinery, Aedes aegypti cationic amino acid transporter 2 (AaiCAT2), TOR, and S6 kinase (S6K), in fat bodies of small mosquitoes, enabling them to complete their first gonotrophic cycle after a single blood meal. These findings establish a direct link between nutrient reserves and the establishment of TOR signaling in mosquitoes.     

Nitrogen partitioning and blood meal utilization by Aedes aegypti (Diptera Culicidae)

The utilization of the blood meal by mosquitoes was investigated by first feeding females quantities of blood ranging from 1 to 5 mg, and then analyzing the faeces for the various by-products of protein catabolism that were subsequently eliminated. The nitrogeneous waste products in order of importance were uric acid, histidine, ammonia and arginine. Only traces of the other amino acids were excreted.The total amount of each faecal substance varied linearly with the quantity of blood ingested, however their relative proportions did not change. Regardless of blood meal size the quantily of uric acid and ammonia produced indicates that about 80% of the non-histidine and arginine amino acids are deaminated and utilized for metabolic purposes other than egg protein synthesis.Most of the histidine and about one half of the arginine content of the blood were excreted as free amino acids, but the other amino acids were lost in trace amounts.Nineteen per cent of the total ingested amino acids was incorporated into soluble yolk proteins and this proportion was constant even for small blood meals that result in a reduction in the numbers of eggs produced.The comparative aspects of nitrogen partitioning and blood meal utilization by haematophagous insects, as well as the factors that affect blood meal utilization and fecundity in A. aegypti are discussed.     

Metabolic fate of [14C]-labeled meal protein amino acids in Aedes aegypti mosquitoes

We developed a method to follow the metabolic fate of [(14)C]-labeled Euglena gracilis protein amino acids in Aedes aegypti mosquitoes under three different adult nutritional regimes. Quantitative analysis of blood meal protein amino acid metabolism showed that most of the carbon of the amino acids was either oxidized to CO(2) or excreted as waste. Under the three different adult nutritional regimes, no significant differences in the metabolism of amino acids were found, which indicated that the female A. aegypti mosquitoes possess a substantial capacity of maintaining metabolic homeostasis during a gonotrophic cycle. The amount of maternal glycogen and lipid after egg laying were significantly lower in the mosquitoes that underwent a partial starvation before a blood meal and/or starvation after the blood meal. The content of egg lipid or protein or the number of eggs laid did not show a significant difference among the three different regimes, which indicates that stable fecundity of A. aegypti under the partial starvation before a blood meal and/or starvation after the blood meal seemed to result from a trade-off between current fecundity and future survival after the eggs laid. The methods described in this paper can be applied to a wide range of questions about the effects of environmental conditions on the utilization of blood meal amino acids.     

Hemolymph of Anopheles stephensi from noninfected and Plasmodium berghei-infected mosquitoes. 1. Collection procedure and physical characteristics.

Hemolymph was collected from adult female Anopheles stephensi by centrifugation of incised mosquitoes. Approximately 0.1 muliter was collected from each recently emerged mosquito, although smaller amounts were recovered with increasing age of the mosquito. Determinations were made of the pH, osmotic pressure, and specific gravity of this hemolymph at various times during the life of the adult mosquito. The values obtained were within the ranges found for other insects. Hemolymph collected from mosquitoes fed on hamsters infected with Plasmodium berghei had different values than hemolymph from mosquitoes fed on noninfected hamsters. This probably was due to differences between the quality of these 2 types of blood meals, rather than to the direct effects of the malaria parasite on the infected mosquito itself.     

Cache Valley virus: experimental infection in Culiseta inornata

Experiments were conducted to examine the dynamics of Cache Valley virus in Culiseta inornata, the probable chief vector of the virus. Of about 1500 laboratory reared C. inornata exposed to viraemic suckling mice, 72 took a blood meal. A relatively high precentage (93%) of the latter mosquitoes became infected. The virus increased more than 100-fold in the experimentally infected mosquitoes. The increasing viral titres were noticed after 7 days and after 15 days. Peak titres averaged 105.0 (mean suckling mouse intracerebral lethal dose) SMICLD50/0.02 mL. The infected mosquitoes had peak titres until at least 35 days after the mosquitoes ingested blood from infected suckling mice. A single trasmission of virus by bite occurred 30 days after the viraemic blood meal. Transovarial transmission was demonstrated. In two experiments, 3.3 and 2.9% of infected mosquitoes transovarially transmitted Cache Valley virus to both male and female progeny. The minimum infection rate for the progeny was 2.05/1000 mosquitoes. This is the first reported experimental demonstration of transovarian transmission in a species of mosquito which overwinters as an adult. The role of transovarian transmission in the natural maintenance of Cache Valley virus remains undetermined.     

Ammonia metabolism in Aedes aegypti

We investigated the mechanisms by which Aedes aegypti mosquitoes are able to metabolize ammonia. When females were given access to solutions containing NH(4)Cl or to a blood meal, hemolymph glutamine and proline concentrations increased markedly, indicating that ammonium/ammonia can be removed from the body through the synthesis of these two amino acids. The importance of glutamine synthetase was shown when an inhibitor of the enzyme was added to the meal causing the glutamine concentration in hemolymph to decrease significantly, while the proline concentration increased dramatically. Unexpectedly, we found an important role for glutamate synthase. When mosquitoes were fed azaserine, an inhibitor of glutamate synthase, the glutamine concentration increased and the proline concentration decreased significantly. This confirms the presence of glutamate synthase in mosquitoes and suggests that this enzyme contributes to the production of glutamate for proline synthesis. Several key enzymes related to ammonium/ammonia metabolism showed activity in homogenates of mosquito fat body and midgut. The mosquito genes encoding glutamate dehydrogenase, glutamine synthetase, glutamate synthase, pyrroline-5-carboxylate synthase were cloned and sequenced. The mRNA expression patterns of these genes were examined by a real-time RT-PCR in fat body and midgut. The results show that female mosquitoes have evolved efficient mechanisms to detoxify large loads of ammonium/ammonia.     

二化螟幼虫被二化螟绒茧蜂寄生后血淋巴的生理生化变化

二化螟Chila suppressalis幼虫被二化螟绒茧蜂Apanteles chilonis产卵寄生后,血细胞含量增加,在被产卵寄生后的第6—10天,血细胞数最比对照幼虫增加了1.53—2.79倍,但血细胞形成被囊的能力很弱,对于蜂卵和蜂幼虫形成被囊的百分率分别为0.34％和0.62％。绒茧蜂寄生后,对二化螟幼虫生理生化有一定的影响,在寄生前期和后期,寄主幼虫血淋巴蛋白质浓度显著下降,在寄生后第2天,血淋巴游离氨基酸总浓度明显上升,以后随蜂幼虫发育而逐渐下降。在16种氨基酸中,对苏、丝、赖、精氨酸的影响最大。此外,本文对二化螟绒茧蜂的营养生理和寄生后调节寄主的能力进行了探讨。     

Evidence for hormonal control of diuresis after a blood meal in the mosquito Aedes aegypti

In previous studies we have presented evidence for the role of peptides, isolated from heads of the mosquito Aedes aegypti, in stimulating fluid secretion by isolated Malpighian tubules. In the present study we conducted experiments to investigate whether these peptides are involved in hormone-mediated diuresis after a blood meal. In vivo experiments showed that the head was required to maintain diuresis after the blood meal. Whereas feeding on blood triggered a prompt diuresis in the intact mosquito, subsequent decapitation caused a gradual, not an abrupt, decline in urine excretion rate. Hemolymph collected from mosquitoes fed blood significantly stimulated fluid secretion in vitro by isolated Malpighian tubules, whereas hemolymph from unfed or blood-fed decapitated mosquitoes did not. These results indicate that a diuretic factor was released into the hemolymph after a blood meal. This factor was not present in the hemolymph of decapitated females. We identified the head as a source of diuretic factors. Peptides isolated from a head extract by high-performance liquid chromatography, when injected into the hemocoel of blood-fed decapitated mosquitoes, triggered diuresis in vivo and also stimulated fluid secretion in isolated Malpighian tubules. These studies support the hypothesis that the head is a storage site for diuretic peptides that may be released after a blood meal to control diuresis.     

Brugia pahangi: effects upon the flight capability of Aedes aegypti.

Aedes aegypti mosquitoes were adversely affected by infections of the filarial worm Brugia pahangi. Infected mosquitoes flew significantly shorter distances and showed marked reductions in total flight time during 24-hr flight mill tests compared to uninfected controls. Total flight range and duration flown by infected mosquitoes remained relatively constant throughout the infection process, while control mosquitoes flew further and longer with increasing time after their blood meal. Furthermore, a significantly greater number of infected mosquitoes either died or were rendered incapable of flight. Of flying and nonflying mosquitoes with 6-day-old or older infections dissected for parasite burdens, the nonflying group contained significantly more worms. Results of this study indicate that developing filarial larvae within this mosquito vector reduce its ability to survive and to transmit its infection by reducing its flight capabilities. Conclusions from this study relate only to A. aegypti homozygous for the gene fm which is fully susceptible to this filarial parasite.     

Hemolymph patterns of free amino acids in the brine shrimp Artemia franciscana after three days starvation at different salinities

The hemolymph pattern of free amino acids was examined in the brine shrimp, Artemia franciscana (Great Salt Lake origin). After one-month acclimation to 35 or 60 ppt salinity at 27 degrees C, the animals were transferred to 10, 35 or 60 ppt salinities to continue acclimation for 3 days without feeding at 27 degrees C. The osmolarity of one of the new media was raised by glycerol addition. In the hemolymph, 8 amino acids such as taurine, alanine, threonine, serine, lysine, glycine, arginine and leucine, comprised approximately 70% of the total content of free amino acids. This pattern suggested internal proteolysis due to starvation at high temperature. The total content of free amino acids significantly increased at 10 and 60 ppt salinities in comparison to 35 ppt. The hemolymph patterns from the 10 ppt and glycerol-added media showed a singularly high peak of taurine or alanine.     

Competition for Amino Acids Between Wolbachia and the Mosquito Host,Aedes aegypti

The endosymbiont Wolbachia represents a promising method of dengue control, as it reduces the ability of the primary vector, the mosquito Aedes aegypti, to transmit viruses. When mosquitoes infected with the virulent Wolbachia strain wMelPop are fed non-human blood, there is a drastic reduction in mosquito fecundity and egg viability. Wolbachia has a reduced genome and is clearly dependent on its host for a wide range of nutritional needs. The fitness defects seen in wMelPop-infected A. aegypti could be explained by competition between the mosquito and the symbiont for essential blood meal nutrients, the profiles of which are suboptimal in non-human blood. Here, we examine cholesterol and amino acids as candidate molecules for competition, as they have critical roles in egg structural development and are known to vary between blood sources. We found that Wolbachia infection reduces total cholesterol levels in mosquitoes by 15–25 %. We then showed that cholesterol supplementation of a rat blood meal did not improve fecundity or egg viability deficits. Conversely, amino acid supplementation of sucrose before and after a sheep blood meal led to statistically significant increases in fecundity of approximately 15–20 eggs per female and egg viability of 30–40 %. This mosquito system provides the first empirical evidence of competition between Wolbachia and a host over amino acids and may suggest a general feature of Wolbachia–insect associations. These competitive processes could affect many aspects of host physiology and potentially mosquito fitness, a key concern for Wolbachia-based mosquito biocontrol.     

The effects of parabiotic twinning of susceptible and refractory mosquitoes on the development of Plasmodium gallinaceum

Two species of mosquitoes were joined parabiotically with glass capillaries so as to share common hemolymph. In experiments designed to determine optimum physical factors was found that capillaries of 2.5 mm in length, 100 microns OD and with pointed ends were tolerated best by mosquitoes and permitted optimum hemolymph transfer. Maximum survival of mosquitoes was noted when capillaries were inserted in the post mesospiracular membranous area, in the largest mosquito first and allowed to fill with hemolymph prior to inserting in the second mosquito. Mosquitoes having blood meals prior to twinning retained capillaries best. Use of CO2 anesthetization and a 30-min holding period while anesthetized contributed to greater survival and union of the mosquitoes. In the principal experiments, designed to study the nature of innate immunity of Culex pipiens to Plasmodium gallinaceum, 243 of 2,126 parabiotic twins of C. pipiens and infected Aedes aegypti survived to be evaluated. None of the C. pipiens became infected and only four A. aegypti remained infected. The controls were 93 to 95% infected. It was concluded that the refractory species possessed substances that were toxic to the parasites and prevented parasite development in both species. If there was a lack of essential substances (that could not be transferred) in the refractory C. pipiens they could have been provided by the highly susceptible A. aegypti and both species would have become infected. Innate immunity is therefore antiblastic not atreptic.     

Mermis nigrescens: physiological relationship with its host, the adult desert locust Schistocerca gregaria

Adult desert locusts were experimentally infected per os with 30, 50, or 60 Mermis nigrescens eggs, and changes in the host physiology were recorded. Larval nematodes were recovered from the hemocoel and counted at appropriate times after infection. The food consumption and blood volume of the host were unaffected by the parasitism, but the nematode significantly impaired the ability of male locusts to excrete the injected dye, amaranth, from their hemolymph. The total carbohydrate in the hemolymph of infected male and female locusts was severely depleted during the active growth period of the nematode and the possible utilization of these carbohydrates by the nematode are discussed. The total amino acid and protein levels in the blood of the host were unaffected by the nematode development, although concomittant changes in the levels of both these blood metabolites occurred in all locusts throughout the experimental period. However, although changes of this nature reflected the normal pattern of protein synthesis during oocyte development and oviposition in control locusts, the nematode suppressed oocyte development and caused oocyte resorption in the female host. The nematode did not significantly affect the level of total protein and amino acids in the flight muscles of male and female locusts, but a significant decrease in the level of fat body proteins and amino acids was recorded in infected hosts 16 and 21 days after infection. The possible effect of the nematode on protein metabolism by the host fat body is discussed in relation to the nutritional requirements of the nematode and involvement of the host endocrine system.     

Neuropeptide F and its expression in the yellow fever mosquito,Aedes aegypti

A neuropeptide F (NPF) was isolated from an extract of adult Aedes aegypti mosquitoes based on its immunoreactivity in a radioimmunoassay for Drosophila NPF. After sequencing the peptide, cDNAs encoding the NPF were identified from head and midgut. These cDNAs encode a prepropeptide containing a 36 amino acid peptide with an amidated carboxyl terminus, and its sequence shows it to be a member of the neuropeptide F/Y superfamily. Immunocytochemistry and Northern blots confirmed that both the brain and midgut of females are likely sources of NPF, found at its highest hemolymph titer before and 24 h after a blood meal.     

Changes in body tissues and hemolymph composition of Culex pipiens in response to infection by Romanomermis culicivorax

Hemolymph composition of fourth instar larvae of an autogenous strain of Culex pipiens was examined to determine the effects of parasitism by a mermithid nematode, Romanomermis culicivorax. Mosquitoes were reared under two different pH regimens: 4.5 and 7.3. Wet and dry weight of infected mosquitoes reared at either pH were significantly lower than controls. The effects of parasitism in the development of C. pipiens were evaluated from paraffin sections of mosquito larvae 2, 4, and 6 days postinfection. At 2 days postinfection, the infected larvae showed no apparent effects of parasitism; at day 4, the fat body tissue was reduced and imaginal disc development was retarded; and at day 6, parasitized mosquitoes were smaller in cross section, fat body tissue was found only in isolated clumps, and there was a complete absence of imaginal discs. Concentrations of total carbohydrates in hemolymph from infected fourth instar mosquitoes reared at pH 7.3 were reduced. Trehalose and glucose were each reduced by more than half. Total α-amino nitrogen was significantly lower in infected mosquitoes reared at pH 7.3. However, total amino acid concentrations for hemolymph from control and infected larvae reared at pH 7.3 were the same. Methionine sulfoxide decreased 63% and proline increased 2.5 times in infected mosquitoes. Hemolymph protein concentrations were reduced 80% in infected mosquitoes reared at both pHs. The number of hemolymph proteins also declined from 35 to 22 during infection. Two host proteins, 82,000 and 158,000 daltons, remained prominent throughout the mermithid infection.     

Pathology of Anopheles stephensi after infection with Plasmodium berghei berghei. II. Changes in amino acid contents.

Infection with Plasmodium berghei results in the disease of a relatively high percentage of mosquitoes depending on the experimental conditions. The damage caused by the parasites may be so severe that the host dies. It can also become manifest for instance in a change in the amino acid content of the mosquito homogenate. The amino acid content of mosquitoes fed on a glucose solution, normal mouse blood, or the blood of infected mice was analysed qualitatively and quantitatively over a period of 14 days. The amino acids lysine, phenylalanine, proline, threonine, and tyrosine are always found in higher concentrations in infected mosquitoes. The content of leucine (and/or isoleucine) increased from the 6th day and glutamic acid from the 9th day compared to the controls. Lower concentrations were found for alanine, aspartic acid, glycine, and serine as compared to uninfected mosquitoes. Further investigations on this subject might help to find the causes for the susceptibility or resistance of individual mosquitoes to plasmodia.     

The malaria parasite,Plasmodium falciparum,increases the frequency of multiple feeding of its mosquito vector,Anopheles gambiae.

It has often been suggested that vector-borne parasites alter their vector''s feeding behaviour to increase their transmission, but these claims are often based on laboratory studies and lack rigorous testing in a natural situation. We show in this field study that the malaria parasite, Plasmodium falciparum, alters the blood-feeding behaviour of its mosquito vector, Anopheles gambiae s.l., in two ways. First, mosquitoes infected with sporozoited, the parasite stage that is transmitted from the mosquito to a human, took up larger blood meals than uninfected mosquitoes. Whereas 72% of the uninfected mosquitoes had obtained a full blood meal, 82% of the infected ones had engorged fully. Second, mosquitoes harbouring sporozoites were more likely to bite several people per night. Twenty-two per cent of the infected mosquitoes, but only 10% of the uninfected mosquitoes, contained blood from at least two people. We conclude that the observed changes in blood-feeding behaviour allow the parasite to spread more rapidly among human hosts, and thus confirm that the parasite manipulates the mosquito to increase its own transmission.